Lactogenic and reproductive potentialities of Commelina diffusa  and Ficus ingens were  studied using twenty-four (24) nulliparous New Zealand White does. The does were mated to mature bucks, and divided into four (4) treatment groups of six per treatment. Each treatment was replicated three times, two does constituting a replicate in a completely randomized design (CRD). Treatment one (T1) (control) was concentrate diet, treatment two (T2) comprised of Commelina diffusa (leaves and stems), treatment three (T3) was made up of Ficus ingens (leaves), while mixed forages (Calopogonium mucunoides, Centrosema pubescens, Tridax procumbens, Panicum maximum and Gomphrena spp.) constituted T4. Within the four weeks lactation period, weekly milk yield (kg) of the does were significantly (P<0.05) different during the second and third week of lactation. In the second week, does on T4 (1.63 kg) recorded significantly (P<0.05) higher values than does on T2 (1.05 kg) and T3 (0.93 kg), which were similar (P>0.05). Does on T1 (1.28 kg) recorded similar (P>0.05) values to T2, T3, and T4. In the third week, T1 (1.52 kg) was significantly (P<0.05) higher than T4 (0.93 kg), but similar (P>0.05) to T2 (1.28 kg) and T3 (1.40 kg); and T2 and T3 were similar (P>0.05) to T4. Total milk yield (kg) (1 – 28 days) during the period of lactation recorded significantly (P<0.05) higher value in does on T1 (4.67 kg) than does on T3 (3.64 kg), but similar (P>0.05) to T2 (4.08 kg) and T4 (4.20 kg); and T3 was similar (P>0.05) to T2 and T4. Comparison of peak, total and average daily milk yield of the rabbit does, shows that Commelina diffusa effected lesser peak milk yield, but a higher total and average daily milk yield than Ficus ingens. Mean litter weights (g) of kits of does on T1 (201.40 g) and T2 (207.14 g) were similar (P>0.05), but significantly (P<0.05) higher than that of T3 (177.74 g); and T4 (196.43 g) similar (P>0.05) to T1, T2, and T3. This study demonstrates that Commelina diffusa and Ficus ingens, despite being fed as single forages, had appreciable impact on milk yield and reproductive performance component (litter weight gain). They are therefore recommended for inclusion in forage combinations for feeding rabbits.

Al-Sobayil, K.A., Al-Homidan, A.H., Khalil, M. K. and Mehaia, M.M. (2005). Heritabilities and genetic analysis of milk yield and components in crossing project of Saudi rabbits with Spanish V-line. Livestock Research for Rural Development 17 (10) http://www.lrrd.org/lrrd17/10/soba17117htm.

Ayyat, M.S., Marai, I. F. M. and El-Sayiad, G.H.A. (1995) Genetic and non-genetic factors affecting milk production and pre-weaning litter traits of New Zealand White does under Egyptian conditions. World Rabbit Science 3: 119-124.

Ba, A.S. (1982). L’art des pasteurs sahéliens. Environnement Africain Série Etudes et recherches, no. 78-82, Paris, 98 pp.

Banerjee, G.C. (1998). A texkbook of Animal Husbandry (8th edn). Oxford and IBH Publishing Company, Pvt Ltd, New Delhi. 349 pp.

Bolet, G., Esparbie, J. and Falieees, J. (1996). Relations entre nombre de foetus par corne uterine, la taille de portee a la naissance et la croissance ponderale des lapereaux. Annales de Zootechnie 45: 186-200.

Deug, R.O.and Graham, G.G. (2004). “The Vascular Effects of Cox-2 Inhibitors†Aust. Prescr. 27: 142-145.

Di Meo, C., Gazaneo, M.P., Racca, C., Bovera, F., Piccolo, G. and Nizza, A. (2004). Effect of birth weight and litter size on productive performance of rabbits. Asian-Aust. J. Anim. Sci. 17(8): 1158-1161.

Donkó, T., Radnai, I., Matics Zs., Petneházy, O., Petrási, Zs., Repa, I. and Szendrǿ Zs. (2008). Estimation of milk production of rabbit does by cross-sectional digital imageing. 9th World Rabbit Congress, June 10-13, 2008, Verona, Italy.

Duke, J.A. (1990). “Promising Phytomedicinalsâ€. In: Janick J.and Simon, J,E (Editors). Advances in New Crops. Timber Press, pp 491-498.

Eiler, H. (2004). “Endocrine glandsâ€. In: Reece, O.W. (ed.). Endocrinology, Reproduction and Lactation. Duke’s Physiology of Domestic Animals (12th edn), Reece, O. W. (ed.). Cornell University Press, Ithaca, New York, 623 pp.

El-Raffa, A.M., Shebl, M.K. Kosba, M.A. and Khalil, M.H. (1997). Sire and dam transmitting abilities for liter size traits in three lines of rabbits raised in high intensive system of production. Egyptian Journal of Rabbit Science 7(2): 67-79.

FAO (1986). Food and Agricultural Organisation (FAO) Production and Health Series-21.The Rabbit: Husbandry, Health and Production.

Garcia, C and Adams. J. (2005). Healing with medicinal plants of the West-Cultural and scientific basis for their use. La Crescenta, Abedus Press.

Hasanat, M.S., Hossain, M.E., Mostari, M.P and Hossain, M.A. (2006). Effect of concentrate supplementation on growth and reproductive performance of rabbit under rural condition. Bangl. J. Vet. Med., 4(2): 129-132.

Iheukwumere, F. C. (2008). Effect of mixed feeding regime on litter performance traits of rabbit does. Pakistan J. Nutr. 7(4): 594-596.

Iwuji, T. C. and Herbert, U. (2012). Haematological and serum biochemical characteristics of rabbit bucks fed diets containing Garcinia kola seed meal. Advances in Agriculture, Science and Engineering Research. Vol. 2 (8): 299 – 305.

Iyeghe-Erakpotobor, G.T., Adeosun, Y.G., Sekoni, A.A. and Esievo, L.O. (2008). Reproductive performance of rabbit does on concentrate to forage (Stylosanthes hamata) combinations. Livestock Research for Rural Development 20(11). http://www.Irrd.org/Irrd8/4/suc84htm.

Jacobs, M., Biarnason, I. and Simpson, J.R. (2001). “Effects of Indomethacin on Energy Metabolism in Rat and Human jejunal tissue in-vitro.†Clin. Sci. 101: 493-498.

Jordaan, M. (2005). National Herbarium. South African National Biodiversity Institute. http://www.plantzafrica.com .

Kassa, A. and Mekasha, Y. (2014). Effects of Supplementation with Sycamore Fig (Ficus sycomorus) on Performances of Washera Sheep Fed Natural Pasture Hay and Its Economic Benefit. Global Journal of Animal Scientific Research. 2 (2): 130 – 142.

Laxmi, P. J. Gupta, B.R., Prakash, M.G., Ekambaram, E. and Amareswari, P. (2009). A study on the performance of fryer rabbits under different systems of rearing. Research Livestock for Rural Development 21 (8). http://www.Irrd.org/Irrd8/4/suc84htm.

Lukefahr, S.D., Cheeke, P.R. and Patton, N.M. (1996) Heritability of milk production and 21-day litter weight and litter size in pure bred and crossbred rabbits using an animal model. In: Proceedings of the 6th World Rabbit Congress, Toulouse, France, July 1996. Volume 2: 319-323.

Marykutty, T. and Nandakumar, P. (2000). Factors influencing litter traits and body weight up to 12 weeks among temperate rabbit breeds in humid tropics. World rabbit Science 8(2): 67-70.

Minja, M.M.J. (1990). Report on Traditional Veterinary Medicine Project. Personal Communication.

Narendranath, K.A., Mahalingam, S., Anuradha, V. and Rao, I.S. (1986). Effect of herbal galatogogue (Lactare). A pharmacological and clinical observation. Med. Surg., 26:19-22.

Nasr, A.S. (1994). Milk yield and some associated traits as affected by season of kindling, parity and kindling intervals in New Zealand White doe rabbits under Egyptian conditions. Egyptian Journal of Rabbit Science 4(2): 149-159.

NRCRI (2009). National Root Crops Research Institute (NRCRI). Meteorological Data, Umudike, Abia State.

Odugbemi, T. and Ayoola, A. (2008). “Medicinal Plants from Nigeria: An overview†In: Odugbemi, T (ed.). A Textbook of Medicinal Plants from Nigeria. University of Lagos Press, Akoka, Lagos, Nigeria, 628 pp.

Oguike, M.A. and Udeh, N.E. (2008). Influence of the ethno-veterinary plant – Spondias monbin L. on partial daily milk yield, haematology and serum biochemistry of lactating West African Dwarf (WAD) ewes. JAVA (5): 584-588.

Okasha, M.A.M., Abubakar, M.S. and Banko, I.G. (2008). Study of the effect of aqueous Hibiscus sabdariffa Linn seed extract on serum prolactin level of lactating female albino rats. European Journal of Scientific Research 22(4): 575-583.

Oketch-Rabah, H.A. (1998). Phytochemical constituents of the Genus Asparagus and their biological activities. Hamdard, 41: 33-43.

Okigbo, B.N. (1994). “Agricultural Research Policies, Objectives and Priorities: A Critical Reviewâ€. In: Towards strengthening the Nigerian Agricultural Research System. The National Agricultural Research Project.

Peace Corps, (1982).Backyard and Commercial Rabbit Production 1. Information and Collection Exchange, Peace Corps , USA. http://www.appropedia.org/Back_Yard_and_Commercial_Rabbit_Production_1.

Peterson, J., Hartmann, J. and Mennicken, L. (1996). Effects of prenatal on postnatal performance of does. 6th World Rabbit Congress, Toulouse, France. 9-12 July. Volume 2: 103-106.

Sarwatt, S.V., Laswani, G.H. and Ubwe, R. (2003). Evaluation of the potential of Trichanthera gigantea as a source of nutrients for rabbit diets under small holder production system in Tanzania. Livestock Research for Rural Development, 15(11). http://www.Irrd.org/Irrd8/4/suc84htm.

Sholapurkar, M.L. (1986). Lactare-for improving lactation. Indian Practitioner, 39: 1023-1026.

SPSS (2006). Statistical Package for Social Sciences. SPSS 15.0 for Windows, Evaluation Version. SPSS Inc.

WHO (2003). World Health Organisation. Guidelines on Agricultural and Collection Practices (GACP) for medicinal plants, Geneva.

Winyo, C., Shannon, L.K. and Bo, L. (2004).Maternal zinc deficiency raises plasma prolactin levels in lactating rats. J. Nutr. 134:1314-1319.